Changes in Arctic sea ice result in increasing light transmittance and absorption
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Floating ice-algal aggregates below melting arctic sea ice.Influence of ice thickness and surface properties on light transmission through Arctic sea iceDistribution of algal aggregates under summer sea ice in the Central ArcticPolar bear population dynamics in the southern Beaufort Sea during a period of sea ice decline.Composition, buoyancy regulation and fate of ice algal aggregates in the Central Arctic Ocean.Comparing springtime ice-algal chlorophyll a and physical properties of multi-year and first-year sea ice from the Lincoln Sea.Biogeography and Photosynthetic Biomass of Arctic Marine Pico-Eukaroytes during Summer of the Record Sea Ice Minimum 2012.Biopolymers form a gelatinous microlayer at the air-sea interface when Arctic sea ice melts.High colored dissolved organic matter (CDOM) absorption in surface waters of the central-eastern Arctic Ocean: Implications for biogeochemistry and ocean color algorithms.Windows in Arctic sea ice: Light transmission and ice algae in a refrozen leadPhysical and biological controls on oxygen saturation variability in the upper Arctic OceanSatellite-observed drop of Arctic sea ice growth in winter 2015-2016Carbon export fluxes and export efficiency in the central Arctic during the record sea-ice minimum in 2012: a joint 234 Th/238 U and 210 Po/210 Pb studyResistance of Arctic phytoplankton to ocean acidification and enhanced irradianceFunctional Redundancy Facilitates Resilience of Subarctic Phytoplankton Assemblages toward Ocean Acidification and High IrradianceBrief communication: Increasing shortwave absorption over the Arctic Ocean is not balanced by trends in the AntarcticModelling radiative transfer through ponded first-year Arctic sea ice with a plane-parallel modelGeometric Effects of an Inhomogeneous Sea Ice Cover on the under Ice Light FieldArctic sea ice in transformation: A review of recent observed changes and impacts on biology and human activityEnergy budget of first-year Arctic sea ice in advanced stages of meltUnder-Ice Phytoplankton Blooms Inhibited by Spring Convective Mixing in Refreezing LeadsPercolation blockage: A process that enables melt pond formation on first year Arctic sea iceEffect of sea-ice melt on inherent optical properties and vertical distribution of solar radiant heating in Arctic surface watersAltered inherent optical properties and estimates of the underwater light field during an Arctic under-ice bloom of Phaeocystis pouchetiiBio-optical properties of Arctic drift ice and surface waters north of Svalbard from winter to springAtmospheric conditions in the central Arctic Ocean through the melt seasons of 2012 and 2013: Impact on surface conditions and solar energy deposition into the ice-ocean systemAutonomous observations of solar energy partitioning in first-year sea ice in the Arctic BasinArctic and Antarctic sea ice acts as a sink for atmospheric CO2 during periods of snowmelt and surface floodingLate summer net community production in the central Arctic Ocean using multiple approaches
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Changes in Arctic sea ice result in increasing light transmittance and absorption
description
im Dezember 2012 veröffentlichter wissenschaftlicher Artikel
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wetenschappelijk artikel
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наукова стаття, опублікована в грудні 2012
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name
Changes in Arctic sea ice result in increasing light transmittance and absorption
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Changes in Arctic sea ice result in increasing light transmittance and absorption
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type
label
Changes in Arctic sea ice result in increasing light transmittance and absorption
@en
Changes in Arctic sea ice result in increasing light transmittance and absorption
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prefLabel
Changes in Arctic sea ice result in increasing light transmittance and absorption
@en
Changes in Arctic sea ice result in increasing light transmittance and absorption
@nl
P2860
P50
P356
P1476
Changes in Arctic sea ice result in increasing light transmittance and absorption
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P2093
J. Maslanik
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P356
10.1029/2012GL053738
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P577
2012-12-28T00:00:00Z